JSTests/mozilla/ecma_3/Date/shell.js - WebKit - Git at Google

 /* The contents of this file are subject to the Netscape Public
  * License Version 1.1 (the "License"); you may not use this file
  * except in compliance with the License. You may obtain a copy of
  * the License at http://www.mozilla.org/NPL/
  *
  * Software distributed under the License is distributed on an "AS
  * IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or
  * implied. See the License for the specific language governing
  * rights and limitations under the License.
  *
  * The Original Code is Mozilla Communicator client code, released March
  * 31, 1998.
  *
  * The Initial Developer of the Original Code is Netscape Communications
  * Corporation. Portions created by Netscape are
  * Copyright (C) 1998 Netscape Communications Corporation. All
  * Rights Reserved.
  *
  * Contributor(s):
  *
  */
 /*
  * JavaScript shared functions file for running the tests in either
  * stand-alone JavaScript engine.  To run a test, first load this file,
  * then load the test script.
  */

 var completed = false;
 var testcases;
 var tc = 0;

 SECTION = "";
 VERSION = "";
 BUGNUMBER = "";

 /*
  * constant strings
  */
 var GLOBAL = "[object global]";
 var PASSED = " PASSED!"
 var FAILED = " FAILED! expected: ";
 var DEBUG = false;


 /*
 * Wrapper for test case constructor that doesn't require the SECTION argument.
  */
 function AddTestCase( description, expect, actual )
 {
   testcases[tc++] = new TestCase( SECTION, description, expect, actual );
 }


 /*
  * TestCase constructor
 */
 function TestCase( n, d, e, a )
 {
   this.name = n;
   this.description = d;
   this.expect = e;
   this.actual = a;
   this.passed = true;
   this.reason = "";
   this.bugnumber = BUGNUMBER;
   this.passed = getTestCaseResult( this.expect, this.actual );
   if ( DEBUG ) {writeLineToLog("added " + this.description);}
 }


 /*
  * Set up test environment.
 */
 function startTest()
 {
   if ( version )
   {
     // JavaScript 1.3 is supposed to be compliant ECMA version 1.0
     if (VERSION == "ECMA_1" ) {version ("130");}
     if (VERSION == "JS_1.3" ) {version ( "130");}
     if (VERSION == "JS_1.2" ) {version ( "120");}
     if (VERSION == "JS_1.1" ) {version( "110");}

    // for ECMA version 2.0, we will leave the JavaScript version
    // to the default ( for now ).
  }

   // print out bugnumber
   if ( BUGNUMBER )
   {
     writeLineToLog ("BUGNUMBER: " + BUGNUMBER );
   }

   testcases = new Array();
   tc = 0;
 }


 function test()
 {
   for ( tc=0; tc < testcases.length; tc++ )
   {
     testcases[tc].passed = writeTestCaseResult(
                             testcases[tc].expect,
                             testcases[tc].actual,
                             testcases[tc].description +" = "+ testcases[tc].actual );

     testcases[tc].reason += ( testcases[tc].passed ) ? "" : "wrong value ";
     }

   stopTest();
   return ( testcases );
 }


 /*
  * Compare expected result to the actual result and figure out whether
  * the test case passed.
  */
 function getTestCaseResult(expect, actual )
 {
   //because ( NaN == NaN ) always returns false, need to do
   //a special compare to see if we got the right result.
   if ( actual != actual )
   {
     if ( typeof actual == "object" ) {actual = "NaN object";}
     else {actual = "NaN number";}
   }

   if ( expect != expect )
   {
     if ( typeof expect == "object" ) {expect = "NaN object";}
     else {expect = "NaN number";}
   }

   var passed = ( expect == actual ) ?  true : false;

   // if both objects are numbers, need to replace w/ IEEE standard for rounding
   if ( !passed  &&  typeof(actual) == "number"  &&  typeof(expect) == "number" )
   {
     if ( Math.abs(actual-expect) < 0.0000001 ) {passed = true;}
   }

   //verify type is the same
   if ( typeof(expect) != typeof(actual) ) {passed = false;}

   return passed;
 }


 /*
  * Begin printing functions.  These functions use the shell's print function.
 *  When running tests in the browser, override these functions with functions
 *  that use document.write.
  */
 function writeTestCaseResult( expect, actual, string )
 {
   var passed = getTestCaseResult(expect, actual );
   writeFormattedResult( expect, actual, string, passed );
   return passed;
 }


 function writeFormattedResult( expect, actual, string, passed )
 {
   var s = string ;
   s += ( passed ) ? PASSED : FAILED + expect;
   writeLineToLog( s);
   return passed;
 }


 function writeLineToLog( string )
 {
   print( string );
 }


 function writeHeaderToLog( string )
 {
   print( string );
 }
 /* End of printing functions */


 /*
  * When running in the shell, run the garbage collector after the test has completed.
  */
 function stopTest()
 {
   var gc;
   if ( gc != undefined )
   {
     gc();
   }
 }


 /*
  * Convenience function for displaying failed test cases.
  * Useful when running tests manually.
 */
 function getFailedCases()
 {
   for (var i = 0; i < testcases.length; i++ )
   {
     if ( !testcases[i].passed )
     {
       print( testcases[i].description  +  " = " +  testcases[i].actual  +  " expected: "  +  testcases[i].expect );
     }
   }
 }


  /*
   * Date constants and functions used by tests in Date suite
 */
 var msPerDay = 86400000;
 var HoursPerDay = 24;
 var MinutesPerHour = 60;
 var SecondsPerMinute = 60;
 var msPerSecond = 1000;
 var msPerMinute = 60000;   // msPerSecond * SecondsPerMinute
 var msPerHour = 3600000;   // msPerMinute * MinutesPerHour
 var TZ_DIFF = getTimeZoneDiff();
 var TZ_ADJUST = TZ_DIFF * msPerHour;
 var TIME_1970 = 0;
 var TIME_2000 = 946684800000;
 var TIME_1900 = -2208988800000;
 var UTC_29_FEB_2000 = TIME_2000 + 31*msPerDay + 28*msPerDay;
 var UTC_1_JAN_2005 = TIME_2000 + TimeInYear(2000) + TimeInYear(2001) +
        TimeInYear(2002) + TimeInYear(2003) + TimeInYear(2004);
 var now = new Date();
 var TIME_NOW = now.valueOf();  //valueOf() is to accurate to the millisecond
                                                               //Date.parse() is accurate only to the second


 /*
  * Originally, the test suite used a hard-coded value TZ_DIFF = -8.
  * But that was only valid for testers in the Pacific Standard Time Zone!
  * We calculate the proper number dynamically for any tester. We just
  * have to be careful to use a date not subject to Daylight Savings Time...
 */
 function getTimeZoneDiff()
 {
   return -((new Date(2000, 1, 1)).getTimezoneOffset())/60;
 }


 function Day( t)
 {
   return ( Math.floor( t/msPerDay ) );
 }


 function DaysInYear( y )
 {
   if ( y % 4 != 0 ) {return 365;}

   if ( (y%4 == 0) && (y%100 != 0) ) {return 366;}

   if ( (y%100 == 0) && (y%400 != 0) ) {return 365;}

   if ( (y%400 == 0)){return 366;}
   else {return "ERROR: DaysInYear("  +  y  +  ") case not covered";}
 }


 function TimeInYear( y )
 {
   return ( DaysInYear(y) * msPerDay );
 }


 function DayNumber( t )
 {
   return ( Math.floor( t / msPerDay ) );
 }


 function TimeWithinDay( t )
 {
   if ( t < 0 ) {return ( (t%msPerDay) + msPerDay );}
   else {return ( t % msPerDay );}
 }


 function YearNumber( t )
 {
 }


 function TimeFromYear( y )
 {
   return ( msPerDay * DayFromYear(y) );
 }


 function DayFromYear( y )
 {
   return ( 365*(y-1970)  +  Math.floor((y-1969)/4)  -  Math.floor((y-1901)/100)
                 + Math.floor((y-1601)/400) );
 }


 function InLeapYear( t )
 {
   if ( DaysInYear(YearFromTime(t)) == 365 ) {return 0;}

   if ( DaysInYear(YearFromTime(t)) == 366 ) {return 1;}
   else {return "ERROR: InLeapYear("  +  t  +  ") case not covered";}
 }


 function YearFromTime( t )
 {
   t =Number( t );
   var sign = ( t < 0 ) ? -1 : 1;
   var year = ( sign < 0 ) ? 1969 : 1970;

   for (var timeToTimeZero = t; ;  )
   {
     // subtract the current year's time from the time that's left.
     timeToTimeZero -= sign * TimeInYear(year)

     // if there's less than the current year's worth of time left, then break.
     if ( sign < 0 )
     {
       if ( sign * timeToTimeZero <= 0 ) {break;}
       else {year += sign;}
     }
     else
     {
       if ( sign * timeToTimeZero < 0 ) {break;}
       else {year += sign;}
     }
   }

   return ( year );
 }


 function MonthFromTime( t )
 {
   var day = DayWithinYear( t );
   var leap = InLeapYear(t);

   // I know I could use switch but I'd rather not until it's part of ECMA
   if ( (0 <= day) && (day < 31) ) {return 0;}
   if ( (31 <= day) && (day < (59+leap) )) {return 1;}
   if ( ((59+leap) <= day) && (day < (90+leap) )) {return 2;}
   if ( ((90+leap) <= day) && (day < (120+leap) )) {return 3;}
   if ( ((120+leap) <= day) && (day < (151+leap) )) {return 4;}
   if ( ((151+leap) <= day) && (day < (181+leap) )) {return 5;}
   if ( ((181+leap) <= day) && (day < (212+leap) )) {return 6;}
   if ( ((212+leap) <= day) && (day < (243+leap)) ) {return 7;}
   if ( ((243+leap) <= day) && (day < (273+leap) )) {return 8;}
   if ( ((273+leap) <= day) && (day < (304+leap)) ) {return 9;}
   if ( ((304+leap) <= day) && (day < (334+leap)) ) {return 10;}
   if ( ((334+leap) <= day) && (day < (365+leap)) ) {return 11;}
   else {return "ERROR: MonthFromTime("  +  t  +  ") not known";}
 }


 function DayWithinYear( t )
 {
   return(Day(t) - DayFromYear(YearFromTime(t)) );
 }


 function DateFromTime( t )
 {
   var day = DayWithinYear(t);
   var month = MonthFromTime(t);

   if ( month == 0) {return ( day + 1 );}
   if ( month == 1) {return ( day - 30 );}
   if ( month == 2) {return ( day - 58 - InLeapYear(t) );}
   if ( month == 3) {return ( day - 89 - InLeapYear(t));}
   if ( month == 4) {return ( day - 119 - InLeapYear(t));}
   if ( month == 5) {return ( day - 150 - InLeapYear(t));}
   if ( month == 6) {return ( day - 180 - InLeapYear(t));}
   if ( month == 7) {return ( day - 211 - InLeapYear(t));}
   if ( month == 8) {return ( day - 242 - InLeapYear(t));}
   if ( month == 9) {return ( day - 272 - InLeapYear(t));}
   if ( month == 10) {return ( day - 303 - InLeapYear(t));}
   if ( month == 11) {return ( day - 333 - InLeapYear(t));}
   return ("ERROR: DateFromTime("+t+") not known" );
 }


 function WeekDay( t )
 {
   var weekday = (Day(t)+4)%7;
   return( weekday < 0 ?  7+weekday : weekday );
 }


 // missing daylight savings time adjustment


 function HourFromTime( t )
 {
   var h = Math.floor( t / msPerHour )%HoursPerDay;
   return ( (h<0) ? HoursPerDay + h : h  );
 }


 function MinFromTime( t )
 {
   var min = Math.floor( t / msPerMinute )%MinutesPerHour;
   return( (min < 0 ) ?  MinutesPerHour + min : min );
 }


 function SecFromTime( t )
 {
   var sec = Math.floor( t / msPerSecond )%SecondsPerMinute;
   return ( (sec < 0 ) ?  SecondsPerMinute + sec : sec );
 }


 function msFromTime( t )
 {
   var ms = t%msPerSecond;
   return ( (ms < 0 ) ? msPerSecond + ms : ms );
 }


 function LocalTZA()
 {
   return ( TZ_DIFF * msPerHour );
 }


 function UTC( t )
 {
   return ( t - LocalTZA() - DaylightSavingTA(t  - LocalTZA()) );
 }


 function DaylightSavingTA( t )
 {
   t = t - LocalTZA();

   var dst_start = GetSecondSundayInMarch(t) +  2*msPerHour;
   var dst_end = GetFirstSundayInNovember(t) +  2*msPerHour;

   if ( t >= dst_start  &&  t < dst_end ) {return msPerHour;}
   else {return 0;}

   // Daylight Savings Time starts on the first Sunday in April at 2:00AM in PST.
   // Other time zones will need to override this function.

 print( new Date( UTC(dst_start + LocalTZA())) );
 return UTC(dst_start + LocalTZA());
 }

 function GetFirstSundayInApril( t ) {
     var year = YearFromTime(t);
     var leap = InLeapYear(t);

     var april = TimeFromYear(year) + TimeInMonth(0, leap) + TimeInMonth(1,leap) +
     TimeInMonth(2,leap);

     for ( var first_sunday = april; WeekDay(first_sunday) > 0;
         first_sunday += msPerDay )
     {
         ;
     }

     return first_sunday;
 }
 function GetLastSundayInOctober( t ) {
     var year = YearFromTime(t);
     var leap = InLeapYear(t);

     for ( var oct = TimeFromYear(year), m = 0; m < 9; m++ ) {
         oct += TimeInMonth(m, leap);
     }
     for ( var last_sunday = oct + 30*msPerDay; WeekDay(last_sunday) > 0;
         last_sunday -= msPerDay )
     {
         ;
     }
     return last_sunday;
 }

 // Added these two functions because DST rules changed for the US.
 function GetSecondSundayInMarch( t ) {
 	var	year = YearFromTime(t);
 	var	leap = InLeapYear(t);

 	var	march =	TimeFromYear(year) + TimeInMonth(0, leap) + TimeInMonth(1,leap);

 	var sundayCount = 0;
 	var flag = true;
 	for ( var second_sunday = march; flag; second_sunday += msPerDay )
 	{
 		if (WeekDay(second_sunday) == 0) {
 			if(++sundayCount == 2)
 				flag = false;
 		}
 	}

 	return second_sunday;
 }
 function GetFirstSundayInNovember( t ) {
 	var year = YearFromTime(t);
 	var leap = InLeapYear(t);

 	for ( var nov = TimeFromYear(year), m =	0; m < 10; m++ ) {
 		nov += TimeInMonth(m, leap);
 	}
 	for ( var first_sunday = nov; WeekDay(first_sunday) > 0;
 		first_sunday += msPerDay	)
 	{
 		;
 	}
 	return first_sunday;
 }


 function LocalTime( t )
 {
   return ( t + LocalTZA() + DaylightSavingTA(t) );
 }


 function MakeTime( hour, min, sec, ms )
 {
   if ( isNaN(hour) || isNaN(min) || isNaN(sec) || isNaN(ms) ){return Number.NaN;}

   hour = ToInteger(hour);
   min  = ToInteger( min);
   sec  = ToInteger( sec);
   ms = ToInteger( ms );

   return( (hour*msPerHour) + (min*msPerMinute) + (sec*msPerSecond) + ms );
 }


 function MakeDay( year, month, date )
 {
   if ( isNaN(year) || isNaN(month) || isNaN(date)) {return Number.NaN;}

   year = ToInteger(year);
   month = ToInteger(month);
   date = ToInteger(date );

   var sign = ( year < 1970 ) ?  -1 : 1;
   var t = ( year < 1970 ) ? 1 :  0;
   var y = ( year < 1970 ) ? 1969 : 1970;

   var result5 = year + Math.floor( month/12 );
   var result6= month%12;

   if ( year < 1970 )
   {
     for ( y = 1969; y >= year;  y += sign )
     {
       t += sign * TimeInYear(y);
     }
   }
   else
   {
     for ( y = 1970 ; y < year; y += sign )
     {
       t += sign * TimeInYear(y);
     }
   }

   var leap = InLeapYear( t );

   for ( var m = 0; m < month; m++)
   {
     t += TimeInMonth( m, leap );
   }

   if ( YearFromTime(t) != result5 ) {return Number.NaN;}
   if ( MonthFromTime(t) != result6 ) {return Number.NaN;}
   if ( DateFromTime(t) != 1 ){return Number.NaN;}

   return ( (Day(t)) + date - 1 );
 }


 function TimeInMonth( month, leap )
 {
   // Jan 0  Feb 1  Mar 2  Apr 3   May 4  June 5  Jul 6 Aug 7  Sep 8 Oct 9  Nov 10  Dec11

   // April  June  September November
   if ( month == 3 || month == 5 || month == 8 || month == 10 ) {return ( 30*msPerDay );}

   // all the rest
   if ( month == 0 || month == 2 || month == 4  || month == 6 ||
        month == 7  || month == 9 || month == 11 ) {return ( 31*msPerDay );}

   // save February
   return ( (leap == 0) ?  28*msPerDay : 29*msPerDay );
 }


 function MakeDate( day, time )
 {
   if (day == Number.POSITIVE_INFINITY ||
        day == Number.NEGATIVE_INFINITY ||
        day == Number.NaN )
   {
     return Number.NaN;
   }

   if ( time == Number.POSITIVE_INFINITY ||
         time == Number.POSITIVE_INFINITY ||
         day == Number.NaN)
   {
     return Number.NaN;
   }

   return ( day * msPerDay ) + time;
 }


 function TimeClip( t )
 {
   if ( isNaN( t )) {return ( Number.NaN);}
   if ( Math.abs( t ) > 8.64e15 ) {return ( Number.NaN);}

   return ( ToInteger( t ) );
 }


 function ToInteger( t )
 {
   t = Number( t );

   if ( isNaN( t )) {return ( Number.NaN);}

   if ( t == 0 || t == -0 ||
         t == Number.POSITIVE_INFINITY ||
         t == Number.NEGATIVE_INFINITY)
   {
     return 0;
   }

   var sign = ( t < 0 ) ?  -1 : 1;

   return ( sign * Math.floor( Math.abs( t ) ) );
 }


 function Enumerate( o )
 {
   var p;
   for ( p in o ) {print( p +  ": "  +  o[p] );}
 }


 /* these functions are useful for running tests manually in Rhino */

 function GetContext()
 {
   return Packages.com.netscape.javascript.Context.getCurrentContext();
 }


 function OptLevel( i )
 {
   i = Number(i);
   var cx = GetContext();
   cx.setOptimizationLevel(i);
 }

 /* end of Rhino functions */
	/* The contents of this file are subject to the Netscape Public
	* License Version 1.1 (the "License"); you may not use this file
	* except in compliance with the License. You may obtain a copy of
	* the License at http://www.mozilla.org/NPL/
	*
	* Software distributed under the License is distributed on an "AS
	* IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or
	* implied. See the License for the specific language governing
	* rights and limitations under the License.
	*
	* The Original Code is Mozilla Communicator client code, released March
	* 31, 1998.
	*
	* The Initial Developer of the Original Code is Netscape Communications
	* Corporation. Portions created by Netscape are
	* Copyright (C) 1998 Netscape Communications Corporation. All
	* Rights Reserved.
	*
	* Contributor(s):
	*
	*/
	/*
	* JavaScript shared functions file for running the tests in either
	* stand-alone JavaScript engine. To run a test, first load this file,
	* then load the test script.
	*/

	var completed = false;
	var testcases;
	var tc = 0;

	SECTION = "";
	VERSION = "";
	BUGNUMBER = "";

	/*
	* constant strings
	*/
	var GLOBAL = "[object global]";
	var PASSED = " PASSED!"
	var FAILED = " FAILED! expected: ";
	var DEBUG = false;


	/*
	* Wrapper for test case constructor that doesn't require the SECTION argument.
	*/
	function AddTestCase( description, expect, actual )
	{
	testcases[tc++] = new TestCase( SECTION, description, expect, actual );
	}


	/*
	* TestCase constructor
	*/
	function TestCase( n, d, e, a )
	{
	this.name = n;
	this.description = d;
	this.expect = e;
	this.actual = a;
	this.passed = true;
	this.reason = "";
	this.bugnumber = BUGNUMBER;
	this.passed = getTestCaseResult( this.expect, this.actual );
	if ( DEBUG ) {writeLineToLog("added " + this.description);}
	}


	/*
	* Set up test environment.
	*/
	function startTest()
	{
	if ( version )
	{
	// JavaScript 1.3 is supposed to be compliant ECMA version 1.0
	if (VERSION == "ECMA_1" ) {version ("130");}
	if (VERSION == "JS_1.3" ) {version ( "130");}
	if (VERSION == "JS_1.2" ) {version ( "120");}
	if (VERSION == "JS_1.1" ) {version( "110");}

	// for ECMA version 2.0, we will leave the JavaScript version
	// to the default ( for now ).
	}

	// print out bugnumber
	if ( BUGNUMBER )
	{
	writeLineToLog ("BUGNUMBER: " + BUGNUMBER );
	}

	testcases = new Array();
	tc = 0;
	}


	function test()
	{
	for ( tc=0; tc < testcases.length; tc++ )
	{
	testcases[tc].passed = writeTestCaseResult(
	testcases[tc].expect,
	testcases[tc].actual,
	testcases[tc].description +" = "+ testcases[tc].actual );

	testcases[tc].reason += ( testcases[tc].passed ) ? "" : "wrong value ";
	}

	stopTest();
	return ( testcases );
	}


	/*
	* Compare expected result to the actual result and figure out whether
	* the test case passed.
	*/
	function getTestCaseResult(expect, actual )
	{
	//because ( NaN == NaN ) always returns false, need to do
	//a special compare to see if we got the right result.
	if ( actual != actual )
	{
	if ( typeof actual == "object" ) {actual = "NaN object";}
	else {actual = "NaN number";}
	}

	if ( expect != expect )
	{
	if ( typeof expect == "object" ) {expect = "NaN object";}
	else {expect = "NaN number";}
	}

	var passed = ( expect == actual ) ? true : false;

	// if both objects are numbers, need to replace w/ IEEE standard for rounding
	if ( !passed && typeof(actual) == "number" && typeof(expect) == "number" )
	{
	if ( Math.abs(actual-expect) < 0.0000001 ) {passed = true;}
	}

	//verify type is the same
	if ( typeof(expect) != typeof(actual) ) {passed = false;}

	return passed;
	}


	/*
	* Begin printing functions. These functions use the shell's print function.
	* When running tests in the browser, override these functions with functions
	* that use document.write.
	*/
	function writeTestCaseResult( expect, actual, string )
	{
	var passed = getTestCaseResult(expect, actual );
	writeFormattedResult( expect, actual, string, passed );
	return passed;
	}


	function writeFormattedResult( expect, actual, string, passed )
	{
	var s = string ;
	s += ( passed ) ? PASSED : FAILED + expect;
	writeLineToLog( s);
	return passed;
	}


	function writeLineToLog( string )
	{
	print( string );
	}


	function writeHeaderToLog( string )
	{
	print( string );
	}
	/* End of printing functions */


	/*
	* When running in the shell, run the garbage collector after the test has completed.
	*/
	function stopTest()
	{
	var gc;
	if ( gc != undefined )
	{
	gc();
	}
	}


	/*
	* Convenience function for displaying failed test cases.
	* Useful when running tests manually.
	*/
	function getFailedCases()
	{
	for (var i = 0; i < testcases.length; i++ )
	{
	if ( !testcases[i].passed )
	{
	print( testcases[i].description + " = " + testcases[i].actual + " expected: " + testcases[i].expect );
	}
	}
	}


	/*
	* Date constants and functions used by tests in Date suite
	*/
	var msPerDay = 86400000;
	var HoursPerDay = 24;
	var MinutesPerHour = 60;
	var SecondsPerMinute = 60;
	var msPerSecond = 1000;
	var msPerMinute = 60000; // msPerSecond * SecondsPerMinute
	var msPerHour = 3600000; // msPerMinute * MinutesPerHour
	var TZ_DIFF = getTimeZoneDiff();
	var TZ_ADJUST = TZ_DIFF * msPerHour;
	var TIME_1970 = 0;
	var TIME_2000 = 946684800000;
	var TIME_1900 = -2208988800000;
	var UTC_29_FEB_2000 = TIME_2000 + 31msPerDay + 28msPerDay;
	var UTC_1_JAN_2005 = TIME_2000 + TimeInYear(2000) + TimeInYear(2001) +
	TimeInYear(2002) + TimeInYear(2003) + TimeInYear(2004);
	var now = new Date();
	var TIME_NOW = now.valueOf(); //valueOf() is to accurate to the millisecond
	//Date.parse() is accurate only to the second



	/*
	* Originally, the test suite used a hard-coded value TZ_DIFF = -8.
	* But that was only valid for testers in the Pacific Standard Time Zone!
	* We calculate the proper number dynamically for any tester. We just
	* have to be careful to use a date not subject to Daylight Savings Time...
	*/
	function getTimeZoneDiff()
	{
	return -((new Date(2000, 1, 1)).getTimezoneOffset())/60;
	}


	function Day( t)
	{
	return ( Math.floor( t/msPerDay ) );
	}


	function DaysInYear( y )
	{
	if ( y % 4 != 0 ) {return 365;}

	if ( (y%4 == 0) && (y%100 != 0) ) {return 366;}

	if ( (y%100 == 0) && (y%400 != 0) ) {return 365;}

	if ( (y%400 == 0)){return 366;}
	else {return "ERROR: DaysInYear(" + y + ") case not covered";}
	}


	function TimeInYear( y )
	{
	return ( DaysInYear(y) * msPerDay );
	}


	function DayNumber( t )
	{
	return ( Math.floor( t / msPerDay ) );
	}


	function TimeWithinDay( t )
	{
	if ( t < 0 ) {return ( (t%msPerDay) + msPerDay );}
	else {return ( t % msPerDay );}
	}


	function YearNumber( t )
	{
	}


	function TimeFromYear( y )
	{
	return ( msPerDay * DayFromYear(y) );
	}


	function DayFromYear( y )
	{
	return ( 365*(y-1970) + Math.floor((y-1969)/4) - Math.floor((y-1901)/100)
	+ Math.floor((y-1601)/400) );
	}


	function InLeapYear( t )
	{
	if ( DaysInYear(YearFromTime(t)) == 365 ) {return 0;}

	if ( DaysInYear(YearFromTime(t)) == 366 ) {return 1;}
	else {return "ERROR: InLeapYear(" + t + ") case not covered";}
	}


	function YearFromTime( t )
	{
	t =Number( t );
	var sign = ( t < 0 ) ? -1 : 1;
	var year = ( sign < 0 ) ? 1969 : 1970;

	for (var timeToTimeZero = t; ; )
	{
	// subtract the current year's time from the time that's left.
	timeToTimeZero -= sign * TimeInYear(year)

	// if there's less than the current year's worth of time left, then break.
	if ( sign < 0 )
	{
	if ( sign * timeToTimeZero <= 0 ) {break;}
	else {year += sign;}
	}
	else
	{
	if ( sign * timeToTimeZero < 0 ) {break;}
	else {year += sign;}
	}
	}

	return ( year );
	}


	function MonthFromTime( t )
	{
	var day = DayWithinYear( t );
	var leap = InLeapYear(t);

	// I know I could use switch but I'd rather not until it's part of ECMA
	if ( (0 <= day) && (day < 31) ) {return 0;}
	if ( (31 <= day) && (day < (59+leap) )) {return 1;}
	if ( ((59+leap) <= day) && (day < (90+leap) )) {return 2;}
	if ( ((90+leap) <= day) && (day < (120+leap) )) {return 3;}
	if ( ((120+leap) <= day) && (day < (151+leap) )) {return 4;}
	if ( ((151+leap) <= day) && (day < (181+leap) )) {return 5;}
	if ( ((181+leap) <= day) && (day < (212+leap) )) {return 6;}
	if ( ((212+leap) <= day) && (day < (243+leap)) ) {return 7;}
	if ( ((243+leap) <= day) && (day < (273+leap) )) {return 8;}
	if ( ((273+leap) <= day) && (day < (304+leap)) ) {return 9;}
	if ( ((304+leap) <= day) && (day < (334+leap)) ) {return 10;}
	if ( ((334+leap) <= day) && (day < (365+leap)) ) {return 11;}
	else {return "ERROR: MonthFromTime(" + t + ") not known";}
	}


	function DayWithinYear( t )
	{
	return(Day(t) - DayFromYear(YearFromTime(t)) );
	}


	function DateFromTime( t )
	{
	var day = DayWithinYear(t);
	var month = MonthFromTime(t);

	if ( month == 0) {return ( day + 1 );}
	if ( month == 1) {return ( day - 30 );}
	if ( month == 2) {return ( day - 58 - InLeapYear(t) );}
	if ( month == 3) {return ( day - 89 - InLeapYear(t));}
	if ( month == 4) {return ( day - 119 - InLeapYear(t));}
	if ( month == 5) {return ( day - 150 - InLeapYear(t));}
	if ( month == 6) {return ( day - 180 - InLeapYear(t));}
	if ( month == 7) {return ( day - 211 - InLeapYear(t));}
	if ( month == 8) {return ( day - 242 - InLeapYear(t));}
	if ( month == 9) {return ( day - 272 - InLeapYear(t));}
	if ( month == 10) {return ( day - 303 - InLeapYear(t));}
	if ( month == 11) {return ( day - 333 - InLeapYear(t));}
	return ("ERROR: DateFromTime("+t+") not known" );
	}


	function WeekDay( t )
	{
	var weekday = (Day(t)+4)%7;
	return( weekday < 0 ? 7+weekday : weekday );
	}


	// missing daylight savings time adjustment


	function HourFromTime( t )
	{
	var h = Math.floor( t / msPerHour )%HoursPerDay;
	return ( (h<0) ? HoursPerDay + h : h );
	}


	function MinFromTime( t )
	{
	var min = Math.floor( t / msPerMinute )%MinutesPerHour;
	return( (min < 0 ) ? MinutesPerHour + min : min );
	}


	function SecFromTime( t )
	{
	var sec = Math.floor( t / msPerSecond )%SecondsPerMinute;
	return ( (sec < 0 ) ? SecondsPerMinute + sec : sec );
	}


	function msFromTime( t )
	{
	var ms = t%msPerSecond;
	return ( (ms < 0 ) ? msPerSecond + ms : ms );
	}


	function LocalTZA()
	{
	return ( TZ_DIFF * msPerHour );
	}


	function UTC( t )
	{
	return ( t - LocalTZA() - DaylightSavingTA(t - LocalTZA()) );
	}


	function DaylightSavingTA( t )
	{
	t = t - LocalTZA();

	var dst_start = GetSecondSundayInMarch(t) + 2*msPerHour;
	var dst_end = GetFirstSundayInNovember(t) + 2*msPerHour;

	if ( t >= dst_start && t < dst_end ) {return msPerHour;}
	else {return 0;}

	// Daylight Savings Time starts on the first Sunday in April at 2:00AM in PST.
	// Other time zones will need to override this function.

	print( new Date( UTC(dst_start + LocalTZA())) );
	return UTC(dst_start + LocalTZA());
	}

	function GetFirstSundayInApril( t ) {
	var year = YearFromTime(t);
	var leap = InLeapYear(t);

	var april = TimeFromYear(year) + TimeInMonth(0, leap) + TimeInMonth(1,leap) +
	TimeInMonth(2,leap);

	for ( var first_sunday = april; WeekDay(first_sunday) > 0;
	first_sunday += msPerDay )
	{
	;
	}

	return first_sunday;
	}
	function GetLastSundayInOctober( t ) {
	var year = YearFromTime(t);
	var leap = InLeapYear(t);

	for ( var oct = TimeFromYear(year), m = 0; m < 9; m++ ) {
	oct += TimeInMonth(m, leap);
	}
	for ( var last_sunday = oct + 30*msPerDay; WeekDay(last_sunday) > 0;
	last_sunday -= msPerDay )
	{
	;
	}
	return last_sunday;
	}

	// Added these two functions because DST rules changed for the US.
	function GetSecondSundayInMarch( t ) {
	var year = YearFromTime(t);
	var leap = InLeapYear(t);

	var march = TimeFromYear(year) + TimeInMonth(0, leap) + TimeInMonth(1,leap);

	var sundayCount = 0;
	var flag = true;
	for ( var second_sunday = march; flag; second_sunday += msPerDay )
	{
	if (WeekDay(second_sunday) == 0) {
	if(++sundayCount == 2)
	flag = false;
	}
	}

	return second_sunday;
	}
	function GetFirstSundayInNovember( t ) {
	var year = YearFromTime(t);
	var leap = InLeapYear(t);

	for ( var nov = TimeFromYear(year), m = 0; m < 10; m++ ) {
	nov += TimeInMonth(m, leap);
	}
	for ( var first_sunday = nov; WeekDay(first_sunday) > 0;
	first_sunday += msPerDay )
	{
	;
	}
	return first_sunday;
	}


	function LocalTime( t )
	{
	return ( t + LocalTZA() + DaylightSavingTA(t) );
	}


	function MakeTime( hour, min, sec, ms )
	{
	if ( isNaN(hour) \|\| isNaN(min) \|\| isNaN(sec) \|\| isNaN(ms) ){return Number.NaN;}

	hour = ToInteger(hour);
	min = ToInteger( min);
	sec = ToInteger( sec);
	ms = ToInteger( ms );

	return( (hourmsPerHour) + (minmsPerMinute) + (sec*msPerSecond) + ms );
	}


	function MakeDay( year, month, date )
	{
	if ( isNaN(year) \|\| isNaN(month) \|\| isNaN(date)) {return Number.NaN;}

	year = ToInteger(year);
	month = ToInteger(month);
	date = ToInteger(date );

	var sign = ( year < 1970 ) ? -1 : 1;
	var t = ( year < 1970 ) ? 1 : 0;
	var y = ( year < 1970 ) ? 1969 : 1970;

	var result5 = year + Math.floor( month/12 );
	var result6= month%12;

	if ( year < 1970 )
	{
	for ( y = 1969; y >= year; y += sign )
	{
	t += sign * TimeInYear(y);
	}
	}
	else
	{
	for ( y = 1970 ; y < year; y += sign )
	{
	t += sign * TimeInYear(y);
	}
	}

	var leap = InLeapYear( t );

	for ( var m = 0; m < month; m++)
	{
	t += TimeInMonth( m, leap );
	}

	if ( YearFromTime(t) != result5 ) {return Number.NaN;}
	if ( MonthFromTime(t) != result6 ) {return Number.NaN;}
	if ( DateFromTime(t) != 1 ){return Number.NaN;}

	return ( (Day(t)) + date - 1 );
	}


	function TimeInMonth( month, leap )
	{
	// Jan 0 Feb 1 Mar 2 Apr 3 May 4 June 5 Jul 6 Aug 7 Sep 8 Oct 9 Nov 10 Dec11

	// April June September November
	if ( month == 3 \|\| month == 5 \|\| month == 8 \|\| month == 10 ) {return ( 30*msPerDay );}

	// all the rest
	if ( month == 0 \|\| month == 2 \|\| month == 4 \|\| month == 6 \|\|
	month == 7 \|\| month == 9 \|\| month == 11 ) {return ( 31*msPerDay );}

	// save February
	return ( (leap == 0) ? 28msPerDay : 29msPerDay );
	}


	function MakeDate( day, time )
	{
	if (day == Number.POSITIVE_INFINITY \|\|
	day == Number.NEGATIVE_INFINITY \|\|
	day == Number.NaN )
	{
	return Number.NaN;
	}

	if ( time == Number.POSITIVE_INFINITY \|\|
	time == Number.POSITIVE_INFINITY \|\|
	day == Number.NaN)
	{
	return Number.NaN;
	}

	return ( day * msPerDay ) + time;
	}


	function TimeClip( t )
	{
	if ( isNaN( t )) {return ( Number.NaN);}
	if ( Math.abs( t ) > 8.64e15 ) {return ( Number.NaN);}

	return ( ToInteger( t ) );
	}


	function ToInteger( t )
	{
	t = Number( t );

	if ( isNaN( t )) {return ( Number.NaN);}

	if ( t == 0 \|\| t == -0 \|\|
	t == Number.POSITIVE_INFINITY \|\|
	t == Number.NEGATIVE_INFINITY)
	{
	return 0;
	}

	var sign = ( t < 0 ) ? -1 : 1;

	return ( sign * Math.floor( Math.abs( t ) ) );
	}


	function Enumerate( o )
	{
	var p;
	for ( p in o ) {print( p + ": " + o[p] );}
	}


	/* these functions are useful for running tests manually in Rhino */

	function GetContext()
	{
	return Packages.com.netscape.javascript.Context.getCurrentContext();
	}


	function OptLevel( i )
	{
	i = Number(i);
	var cx = GetContext();
	cx.setOptimizationLevel(i);
	}

	/* end of Rhino functions */